Tag Archives: resembles

The Statistical Structure of the Humpback Whale Song Resembles Human Language

Posted on by
Reply

An international team of researchers analyzed moans, moans, whistles, bark, screams, and creaks in recordings of humpback whale songs collected over eight years in New Caledonia.

Arnon et al. We have revealed the same statistical structure of humpback whales (Megaptera novaeangliae) Songs are characteristic of human language. Image credits: Christopher Michelle / CC by 2.0.

“I found something really fascinating,” said Dr. Emma Carroll, a marine biologist at Auckland University.

In this study, Dr. Carol and colleagues apply quantitative methods that are usually used to evaluate infantile utterances, and that this applies to culturally evolved learning songs in human languages. I found it. Humpback whale (Megaptera novaeangliae).

In human language, structurally consistent units exhibit frequency distribution that follows the law of power. Zipfian distribution – Attributes that are likely to promote learning and enhance accurate conservation of language across generations.

The Humpback Whale Song is one of the most complex vocal displays in the Animal Kingdom and is passed down through cultural transmission, providing something compelling in parallel with human language.

These songs are highly structured, consisting of nested hierarchical components. The theme is combined with the sound elements that form the phrase, the phrases that are repeated in the theme, and the song.

If statistical properties of human language arise from cultural transmission, similar patterns should be possible to detect in whale songs.

The study authors analyzed recorded humpback whale song data over eight years using infant-inspired speech segmentation techniques.

They discovered a hidden structure in the whale song.

Specifically, these songs contain statistically coherent subsequences that fit the Zipfian distribution.

Furthermore, the length of these subsequences follows ZIPF's Law of Suspicion, an efficiency-driven principle found in many species, including humans.

This striking similarity between the two evolutionarily distant species emphasizes the deep role of learning and cultural communication in shaping communication across species, with such structural properties being exclusive to human language. It challenges the concept of being.

“The Whale Songs” at Griffith University, Dr. Jenny Allen, a leading expert on whale songs, said:

“This is why it offers such an exciting comparison.”

“These results provide unique insight into the importance of cultural communication in interspecies learning processes, particularly for learning complex communication systems.”

“A more interesting question is, rather than trying to adapt animal communication to holes in the form of “human language”? I think so. ”

“Using insights and methods from how babies learn languages ​​allowed us to discover structures that were previously undetected in whale songs,” says Professor Inval Arnon of Hebrew University. Ta.

“This work illustrates how learning and cultural communication can form the structure of communication systems. Find similar statistical structures when complex continuous behaviors are culturally transmitted. You can do it.”

“It raises the interesting possibility that humpback whales can track the transition odds between sound elements, like human babies, and learn songs by using dips to segment those odds. Masu.”

study It was published in the journal today Science.

____

Invalanon et al. 2025. The whale song shows a language-like statistical structure. Science 387 (6734): 649-653; doi: 10.1126/science.adq7055

Source: www.sci.news

Research Shows Comet 67P/Churyumov-Gerasimenko’s Water Resembles Earth’s Water in Molecular Makeup

Posted on by
Reply

Despite conflicting with the results of some recent studies, this new discovery reinforces the claim that Jupiter-based comets like 67P/Churyumov-Gerasimenko may have contributed to providing water to Earth. This finding has been confirmed.

This pseudocolor four-image mosaic consists of images taken on February 3, 2015, from a distance of 28.7 km from the center of comet Churyumov-Gerasimenko. The size of the mosaic is 4.2 x 4.6 km. Image credit: ESA / Rosetta / NAVCAM / CC BY-SA IGO 3.0.

Water is crucial for the formation and sustenance of life on Earth, and continues to be central to life on Earth today.

It is believed that some water was present in the gas and dust that formed our planet around 4.6 billion years ago, but due to Earth forming close to the sun’s intense heat, a considerable amount of water is thought to have evaporated.

The process by which Earth became abundant in liquid water is still a subject of debate among scientists.

Studies have indicated that a portion of Earth’s water originates from steam released by volcanoes, which then condensed and fell into the oceans.

Furthermore, evidence suggests that a significant percentage of our oceans resulted from the impact of ice and minerals from asteroids and potentially comets hitting Earth.

A series of comets and asteroids colliding with inner solar system planets 4 billion years ago could have facilitated this occurrence.

While there is a strong theory linking asteroid water to Earth’s water, the role of comets has perplexed scientists.

Multiple measurements of Jupiter-based comets have indicated a strong correlation between their water and that of Earth.

This connection is based on a fundamental molecular signature utilized by scientists to track the origins of water across the solar system.

The deuterium (D) to ordinary hydrogen (H) ratio in an object’s water serves as this signature, providing insights into the object’s formation location.

By comparing this hydrogen ratio in comets and asteroids to that of Earth’s water, scientists can discern a potential connection.

Deuterium-rich water is more likely to form in cold environments, resulting in objects formed farther from the Sun, such as comets, exhibiting higher concentrations of this isotope compared to objects formed nearer to the Sun, like asteroids.

Measurements conducted over the past few decades on the deuterium in the water vapor of various other Jupiter-based comets have revealed levels akin to Earth’s water.

“It seems increasingly likely that these comets play a significant role in delivering water to Earth,” commented Dr. Kathleen Mandt, a planetary scientist at NASA Goddard Space Flight Center.

However, ESA’s Rosetta mission to 67P/Churyumov-Gerasimenko in 2014 challenged the notion that Jupiter-based comets aid in replenishing Earth’s water reservoirs.

Upon analyzing Rosetta’s water measurements, scientists discovered that it has the highest deuterium concentration among all comets, with approximately 100% more deuterium than Earth’s oceans (about 1 deuterium atom for every 6,420 hydrogen atoms), surpassing it by threefold.

“This was a significant revelation that compelled us to reassess everything,” remarked Dr. Mandt.

An advanced statistical computing approach was employed by the researchers to automate the laborious task of segregating deuterium-rich water from over 16,000 Rosetta measurements.

These measurements were taken within the gas and dust coma encircling 67P/Churyumov-Gerasimenko by Rosetta.

For the first time, Dr. Mandt and collaborators analyzed all water measurements from the European mission.

The researchers aimed to comprehend the physical processes influencing the fluctuations in hydrogen isotope ratios detected in comets.

Studies on comet dust in laboratory settings and observations indicated that comet dust could impact the hydrogen proportion detected in comet vapors, potentially altering how the comet’s water compares to Earth’s water.

“So, I was curious to see if I could find evidence of this phenomenon occurring in 67P/Churyumov-Gerasimenko,” added Dr. Mandt.

“This is one of those rare instances where a hypothesis is proposed and genuinely validated.”

In fact, scientists identified a distinct correlation between the deuterium measurements of 67P/Churyumov-Gerasimenko within its coma and the amount of surrounding dust near the Rosetta spacecraft, indicating that measurements taken in certain regions of the coma near 67P/Churyumov-Gerasimenko may not accurately represent the comet’s celestial composition.

As the comet traverses an orbit closer to the Sun, its surface warms, releasing gases from the surface, including dust particles with attached water ice fragments.

Research suggests that water containing deuterium has a higher tendency to adhere to dust particles compared to regular water.

When this ice on dust particles is expelled into a coma, it can create an illusion of the comet containing more deuterium than it actually does.

The researchers noted that by the time the dust reaches the outer regions of the coma, at least 120 miles away from the comet’s core, the coma depletes of water.

Once the deuterium-rich water dissipates, the spacecraft can precisely measure the amount of deuterium emanating from the comet’s core.

“This discovery holds profound implications not only for elucidating the role of comets in supplying water to Earth but also for comprehending comet observations that offer insights into the early solar system’s formation,” the researchers noted.

“This discovery provides a unique opportunity to revisit previous observations and prepare for future observations to better factor in the effects of dust.”

of study Published in a magazine scientific progress.

_____

Kathleen E. Mandt others. 2024. D/H of comet 67P/Churyumov-Gerasimenko almost on Earth. scientific progress 10(46);doi: 10.1126/sciadv.adp2191

Source: www.sci.news

Research: Vertebrate Brain Resembles an Ancient Retrovirus

Posted on by
Reply

Biologists from the Altos Institute, Cambridge Institute of Science, and the University of Cambridge have discovered that genetic elements derived from retroviruses (retrotransposons) are essential for the production of myelin (the insulating sheath that surrounds nerve axons) in mammals, amphibians, and animals. I discovered that fish. This gene sequence, called retromyelin, is likely the result of an ancient retroviral infection, and comparisons of retromyelin in mammals, amphibians, and fish indicate that retroviral infection and genome invasion events occurred separately in each of these groups. suggests that it has occurred.

gauche other. suggest that retrovirus internalization played an important role in the emergence of vertebrate myelin. Image credit: Ghosh other., doi: 10.1016/j.cell.2024.01.011.

Myelin, the complex fatty tissue that lines vertebrate nerve axons, allows rapid impulse conduction without the need to increase axon diameter. This means that the nerves can be packed more closely together.

It also provides metabolic support for the nerves, allowing them to lengthen.

Myelin first appeared on the tree of life around the same time as the jaw, and its importance in vertebrate evolution has been recognized for a long time, but until now it is unclear what molecular mechanism caused its appearance. was.

Tanay Ghosh and colleagues at Altos Labs-Cambridge Institute of Science noticed the role of retromyelin in myelin production while studying the gene networks used by oligodendrocytes, the cells that produce myelin in the central nervous system. .

Specifically, they were studying the role of non-coding regions, including retrotransposons, in these gene networks. This has not been previously studied in the context of myelin biology.

“Retrotransposons make up about 40% of our genome, but we know nothing about how they helped animals acquire specific traits during evolution.” said Dr. Ghosh.

“Our motivation was to learn how these molecules serve evolutionary processes, especially in the context of myelination.”

Researchers discovered that in rodents, retromyelin RNA transcripts regulate the expression of myelin basic protein, one of the key components of myelin.

When we experimentally inhibited retromyelin in oligodendrocytes and oligodendrocyte progenitor cells (the stem cells from which oligodendrocytes are derived), the cells were no longer able to produce myelin basic protein.

To find out whether retromyelin is present in other vertebrate species, scientists looked for similar sequences within the genomes of jawed vertebrates, jawless vertebrates, and some invertebrate species. Searched for.

They identified similar sequences in all other classes of jawed vertebrates (birds, fish, reptiles, amphibians) but found no similar sequences in jawless vertebrates or invertebrates. did not.

Robin Franklin, a neuroscientist at the Altos Institute at the Cambridge Institute of Science, said: “There was an evolutionary drive to speed up the conduction of impulses in axons, because the faster the impulse conduction, the faster we can grab objects and move away from them.'' Because they can run away.”

Next, the authors wanted to know whether retromyelin was integrated once in the ancestor of all jawed vertebrates, or whether there were separate retroviral invasions in different branches.

To answer these questions, they constructed a phylogenetic tree from 22 jawed vertebrate species and compared their retromyelin sequences.

This analysis revealed that retromyelin sequences are more similar within species than between species, suggesting that retromyelin has been acquired multiple times through a process of convergent evolution.

The researchers also showed that retromyelin plays a functional role in myelination in fish and amphibians.

When they experimentally disrupted the retromyelin gene sequence in fertilized zebrafish and frog eggs, they found that the developing fish and tadpoles produced significantly less myelin than normal.

“Our findings open new avenues of research exploring how retroviruses are involved in directing evolution more generally,” said Dr. Ghosh.

of study It was published in the magazine cell.

_____

Tanai Ghosh other. 2024. Retroviral involvement in vertebrate myelination through retrotransposon RNA-mediated control of myelin gene expression. cell 187 (4): 814-830; doi: 10.1016/j.cell.2024.01.011

Source: www.sci.news